DE2139718C3 - Power operated wedge chuck - Google Patents

Description

Suitable for driving in the axial direction with the actuator.

connected bolts with a bolt head formed by parallel The invention is based on the task of running a wedge-shaped bolt head 15 wedge clamping fillers of the type mentioned above and with this bolt head in the zubilden that the clamping accuracy and the we-backscite of the basic clamping bends are kungsürad which through the bolts of the actuator engage on the wedge receptacle, characterized by the force transmission caused by the basic clamping jaws, that the cheek pieces (5) are improved with them, while maintaining or overlapping them. to the longitudinal center planes (19) 20 even shortening the overall length of the chuck,
of the respective radial guides of the base jaws This object is achieved according to the invention in that the wedge pieces are provided with guide strips (20) that extend parallel to one another over the length of the wedge to the longitudinal center planes of the respective Ra, which in Guide grooves (21) of the dialfülirungen the Gaindbacken parallel arranged chuck body (1) are guided. 25 th, over the length of the wedge pieces extend-2. Wedge chuck according to Claim 1, characterized in that the guide strips are provided which are characterized in the guide that the axial guide grooves are guided by the grooves of the chuck body.
(21) for the wedge pieces (5) in radial guide grooves (24) for the basic clamping jaws (2) in the chuck according to the invention, the bolts also mate with the bolt head in the chuck, and that in front of the radial guide grooves 30 per led. By this front part (26) of the base jaw head, which is approximately up to the forehead of the log (24), the bolts in the chuck (2) are guided forward in relation to the rear body lying behind them Depth of the axial filling Bolzenköpfc exerted radial forces directly rungsnutcn (21) is widened. onto the chuck body via the guide strips.

35 wear so that bending loads on the bolt

heads in one to the above-mentioned

Difficulties to a large extent are avoided at all. The lateral guides of the bolts

The invention relates to a power-operated wedge, therefore ensuring a high level of clamping accuracy, chucks with several radially in a chuck body, because of disturbing elastic deformations of the Bolzenper guided base clamping jaws, which are not possible over to the chuck heads, and at the same time a very good axis inclined wedge mounts and len efficiency in the power transmission, because the intestinal engaging, parallel to the longitudinal axis of the wedge bolt guided into the bolt head do not require high pieces of an actuator, such as drive sleeve, drive piston adjustment forces. It can be seen that with this or the like it is possible to connect the guide length of the bolt base clamping jaws axially in the chuck body, advantageously short, for actuation of the type of guide,
A preferred embodiment of the invention is characterized in that the axial guides are designed with a guide groove formed by parallel wedge surfaces for the wedge gap in the radial guide bolt head and with this bolt 50 grooves open out for the basic clamping jaws and that the head engages in the prearranged wedge holder located in front of the radial guide grooves on the back of the basic clamping jaws. such a thing! the base jaws compared to the rear wedge chuck of this type are known, for example, from lowing rear part in each case by the depth of the axial of the USA patent specification 1 786 147. When the guide grooves is widened. This facilitates a known wedge chuck, the bolt head 55 protrudes for the production of the axial guide grooves, lined up in the respective wedge receptacle of the basic chuck, on the other hand, the jaws on each side by the depth of the groove, and the bolt is only in its widened front part of the base jaws the axial bolt head adjoining the rear part in the chuck guide grooves at the end so that they are not guided by any besookbody. When the chuck is clamped, it is more necessary to secure it against contamination, therefore due to the radial forces that occur 60 In the following, the invention is subject to bending on an exemplary embodiment shown in the BoI drawing that protrudes freely into the base clamping jaws, which leads to explained. It shows

that on the one hand elastic deformations of the bolt Fig. 1 a Dreibackcn wedge chuck after

heads occur that relate to the adjustment path of the invention in longitudinal section,

individual clamping jaws and their clamping force, a section along the line H-II

ken, so that as a result the clamping accuracy and the chuck according to Fig. 1 with from the Futlerkör-

a uniform absorption and transfer of the removed wedge and removed clamping jaw,

To a large extent desired tension chain Fig. 3 is a side view of the chuck according to Fiß. 1

in the direction of the arrow III loaded there. The ^ίίΓ " ^η ^ Π ^αιί " ^^ "^! [!. ^ ^

if without wedge back and clamping jaw. Writing surfaces IS printed outwards, «odurüi J ₁ ,

In the drawing, the chuck body with 1 be Cinspannuna Cc, workpiece between the. .uls.i / -signed. In it are radially displaceable three jaws each 3 is released. _{-η ^ \\ ^^ (} \.. ,, Basic clamping jaws offset by 120 against each other- 5 I> ic KeiKu.ckc: "w / i-ns-ch opposite, -u ken 2 guided, which are used to create attachment frames Lüngsni! Ilc! Chen, Mi 19 (Hg--) by J ^e ™ ¹ ^ ■ ken 3. The basic clamping jaws 2 radial dimensions,! Er (round jaws para IU angL-dsare via wedge mounts 4 and in them dividing guide strips 20 ". Diem HJ ™ K7", generally designated 5, run to a wedge gap in the 21 of the fulcrum body 1. The guide strips Fuucrkörper 1 centrally arranged drive sleeve 6 an- io 20 are closed to / ur the end 22 of the bolt head ι, νοα ..--, for actuating the Giundspannbak- / oaen, so that «the wedge pieces 5 to precise in ^ w ken 2 can be axially displaced in the chuck body Γ and basic clamping jaws 2 are adjusted laterally, with their hollow cross-section a passage 7 which ensures high clamping accuracy ι> = · _ chuck forms. With 8 one in the chuck body 1 Grundspannbjcken 2 -.ind is also with since union, fixed guide sleeve referred to which the ω i ₅ but radially extending Hihrungsansatzen in <.a Trcibhiilsc6 inside overlaps. The drive sleeve 6 is guided by means of guide grooves 24 (FIG. 3). Uie Keiist with the help of a clamping ring 9 on the collar 10 mounts4 of the basic clamping jaws 2 extend like a threaded sleeve 11 on> eschloß, in whose area the FIG. 1 see UiBt, from the back side of the jaws 12 a draw tube (not shown) is screwed in to the Bcfnm tier guide approaches. The axial bar is. The 20 guide grooves 21 for the wedge pieces opening at the door are actuated via the draw tube by a power drive, for example the front end at 25 (Fig. 3) in the radial buheinen clamping cylinder. With the help of the clamping screws grooves 24 for the basic clamping jaws Z. Uas vo, 13, the chuck body 1 is connected to the main spindle of the front part of the lathe, which is located on the radial guide groove 24. 26 The basic clamping jaw 2 is opposite the

The pieces are each widened individually in the underlying rear part 27 by the depth of the chuck body 1 behind the associated base of the axial guide grooves 21 and the clamping jaw 2 has guided axially displaceably and results in the front part 26 of the Grundbak for axial entrainment by the drive sleeve 6 with ken 2 leading walls 28 of the chuck body in this in engagement. For this purpose, the drive sleeve 6 is flush with the bottom 29 of the axial radial flange 13, which is located in a transverse groove 14 of the 30 guide grooves 21, so that no wedge-shaped pieces intervene in their manufacture. The wedge pieces are difficult as bolts. On the other hand, the Mun-15 has a circular cross-section and is arranged in the formation 25 of these axial grooves 21 through the three-axial bores 16 of the chuck body 1. The front part 26 of the base jaws 2 is covered. The bolt head 17 is formed by parallel wedge surfaces 18, so that a special front-side lock of the correspondingly inclined 35 axial guide grooves 21 can be dispensed with.
Wedge surfaces of the wedge receptacle 4, which can be seen in FIGS. 1 and 2, is practically the rear side of the base clamping jaw 2. Is table the entire diameter of the chuck body for the driving sleeve6 in the representation of FIG. 1 after the passage? and for the radial guidance of the left shifted, the clamping jaw base jaws 2 move available, so that at the same time ken 2, 3 radially inward, and the chuck is clamped a large passage with long jaw guides. With the opposite movement the driving force can be realized.

1 sheet of drawings

Claims (1)

rest of the world! let, and that on the other hand, by the Ubertra * - η ι ι r r _i patent claims: supply of the bending moment from the bolt head to the rear bolt part of the latter in its leadership 1. Power-operated wedge chuck with multiple clamping and jamming, so that the we ren radially guided in a chuck body 5 by the bolts of the actuator Basic clamping jaws that bring about power transmission via the "Grur.d clamping jaws" to the chuck axis tends to run wedge recordings and is bad in them. Due to the very large length of the gripping wedge pieces parallel to the longitudinal axis on the bolt in the chuck body could be an actuator such as drive sleeve, drive piston disadvantage would be alleviated, but this would Od. Like. Are connected that require an unirageable length of the chuck for actuation io. the basic clamping jaws axially in the chuck body As a precision chuck with high clamping force and is displaceable, with the wedge pieces than the short overall length is therefore not the known chuck